1,720,979 research outputs found
Nuovo componente ecocompatibile ad attività pozzolanica per cementi ottenuto da vetro prodotto da trattamento termico di rifiuti solidi urbani
No full textHazardous-waste containers in cementitious materials: leakage test on small-scale specimens and on full-scale prototypes
No full textIndagine sperimentale su un sistema prefabbricato modulare per lo smaltimento dei rifiuti radioattivi a bassa radioattività
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Effect Of Expansive Agent and Shrinkage Reducing Admixture on the Performances of Fiber Reinforced Mortars
No full textMSWI ashes as mineral additions in concrete
No full textThe paper describes the results of a research aimed at studying the effect of replacing part of portland cement with fly ash and bottom ash, both from municipal solid waste incinerators (MSWI). Fly ash was subjected to a washing treatment to reduce the chloride content, while bottom ash was subjected to dry grinding or wet grinding under water. Concretes with addition of different types of ashes, including a traditional coal fly ash, were manufactured. Fresh and hardened properties of the concretes were compared in order to study the advantages and the side effects of each type of addition. Results showed that MSWI bottom ash is potentially attractive as mineral addition for the production of concrete, provided that the risk of entrapment of hydrogen bubbles produced by corrosion of aluminium metallic particles in the fresh concrete is prevented. This could be achieved by wet grinding the bottom ash so that reactions leading to gas development exhaust within the slurry before this is added to the concrete mixture. However, by considering bottom ashes from different incinerators, a great variability was observed in the time required to complete the hydrogen gas production. Nevertheless, when the hydrogen development in the fresh concrete could be avoided, wet ground MSWI bottom showed a good pozzolanic behavior and proved to give a significant contribution to the development of the strength and impermeability of concrete
Ashes of municipal solid wastes from incineration plants as mineral additions in concrete
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